// Copyright (c) 2025, 大连理工大学 (Dalian University of Technology)
//
// Licensed under the Mulan PSL v2.
// You can use this file according to the terms and conditions of the Mulan PSL v2.
// You may obtain a copy of the License at
//
//     http://license.coscl.org.cn/MulanPSL2
//
// THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
// EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. SEE THE MULAN PSL v2
// FOR MORE DETAILS.

#include "Import/BDFImport/BulkData/Load/DPHASEParser.h"

#include <algorithm>

#include "gtest/gtest.h"

#include "DataStructure/Common/Constant.h"
#include "DataStructure/Input/Load/DPHASEData.h"

#include "DBManager/DBServiceFactory.h"
#include "DBManager/IService/Input/Load/IDPHASEService.h"

#include "Import/BDFImport/BDFParserBase.h"
using namespace SG::DBManager;
using namespace SG::Import;

using SG::DataStructure::Common::TOLERANCE;
using namespace SG::DataStructure::FEM;
extern std::shared_ptr<DBServiceFactory> DB_SERVICEFACTORY;
extern std::vector<std::string>          dividedEntryInfo;

class DPHASEParserTest : public ::testing::Test
{
  public:
    static void SetUpTestSuite ()
    {
        DB_SERVICEFACTORY->ClearDatabase ();
    }
};

TEST_F (DPHASEParserTest, ParseEntry1)
{
    //                                  $1234567$1234567$1234567$1234567$1234567$1234567$1234567$1234567$1234567$1234567$1234567$1234567$1234567
    std::vector<std::string> Entry = { "DPHASE  4       21      6       2.1     8       6       7.2" };
    BDF::divideBulkEntry (Entry, dividedEntryInfo);
    SG::Import::BDF::BULKDATA::ParseDPHASE (DB_SERVICEFACTORY, dividedEntryInfo);
    std::vector<SG::DataStructure::FEM::DPHASEData> DPHASEs;

    SG::DataStructure::FEM::DPHASEData data1;
    SG::DataStructure::FEM::DPHASEData data2;

    DB_SERVICEFACTORY->get<IDPHASEService> ()->FindBySId (4, DPHASEs);

    std::sort (DPHASEs.begin (), DPHASEs.end (), [] (const DPHASEData& a, const DPHASEData& b) { return a.m_P > b.m_P; });

    data1 = DPHASEs[0];
    data2 = DPHASEs[1];

    ASSERT_TRUE (data1.m_sId == 4);
    ASSERT_TRUE (data2.m_sId == 4);
    ASSERT_TRUE (data1.m_P == 21);
    ASSERT_TRUE (data2.m_P == 8);
    ASSERT_TRUE (data1.m_C == 6);
    ASSERT_TRUE (data2.m_C == 6);
    ASSERT_NEAR (data1.m_TH, 2.1, TOLERANCE);
    ASSERT_NEAR (data2.m_TH, 7.2, TOLERANCE);
}
